outstanding width of stiffener

简明释义

加劲肋外伸宽度

英英释义

例句

1.The outstanding width of stiffener affects the overall stability of the structure.

加劲肋的突出宽度影响整体结构的稳定性。

2.The engineer calculated the outstanding width of stiffener to ensure maximum structural integrity.

工程师计算了加劲肋的突出宽度以确保结构的最大完整性。

3.During the design phase, we must consider the outstanding width of stiffener for better performance.

在设计阶段，我们必须考虑加劲肋的突出宽度以获得更好的性能。

4.Adjusting the outstanding width of stiffener can improve the load distribution in the beam.

调整加劲肋的突出宽度可以改善梁中的载荷分布。

5.A wider outstanding width of stiffener can provide additional support to the framework.

更宽的加劲肋的突出宽度可以为框架提供额外的支持。

作文

In the field of structural engineering, the design and implementation of various components play a crucial role in ensuring the stability and durability of structures. One such component is the stiffener, which is used to enhance the strength and rigidity of structural elements. The term outstanding width of stiffener refers to the portion of the stiffener that extends beyond the main structural member it is attached to. This dimension is critical as it influences the overall performance of the structure under various loads. Understanding the outstanding width of stiffener is essential for engineers when designing beams, plates, or other structural elements. When a stiffener is designed, its outstanding width must be carefully calculated to ensure that it can effectively resist bending and buckling forces. If the outstanding width of stiffener is too small, the stiffener may not provide adequate support, leading to potential structural failures. Conversely, if the outstanding width of stiffener is excessively large, it can result in unnecessary material usage and increased costs without significant benefits. Therefore, finding the optimal outstanding width of stiffener is a balancing act that requires thorough analysis and consideration of various factors, including material properties, load conditions, and the intended use of the structure.Furthermore, the outstanding width of stiffener also affects the overall aesthetics of a structure. In architectural applications, where visual appeal is important, engineers must consider how the stiffeners integrate with the design. A well-proportioned outstanding width of stiffener can enhance the appearance of a building while still fulfilling its structural requirements. It is a prime example of how engineering and architecture intersect, highlighting the need for collaboration between these two disciplines.In addition to aesthetic considerations, the outstanding width of stiffener can influence the fabrication and assembly processes. Wider stiffeners may complicate the welding or bolting processes, requiring more time and resources to install. Therefore, engineers must also consider the practical implications of their designs, ensuring that the outstanding width of stiffener aligns with construction capabilities and safety standards.To sum up, the concept of outstanding width of stiffener is fundamental in structural engineering. It impacts the strength, efficiency, aesthetics, and practicality of a design. Engineers must possess a deep understanding of this term and its implications to create safe, functional, and visually appealing structures. By carefully considering the outstanding width of stiffener during the design phase, engineers can contribute to the development of resilient and sustainable infrastructure that meets the needs of society. As technology advances, new materials and methods will continue to evolve, offering opportunities to refine our understanding of the outstanding width of stiffener and improve our designs for future projects.

在结构工程领域，各种组件的设计和实施在确保结构的稳定性和耐久性方面发挥着至关重要的作用。其中一个组件是加劲肋，用于增强结构元素的强度和刚度。术语加劲肋的突出宽度指的是加劲肋超出其连接的主要结构构件的部分。这个尺寸至关重要，因为它影响结构在各种载荷下的整体性能。理解加劲肋的突出宽度对于工程师在设计梁、板或其他结构元素时至关重要。在设计加劲肋时，必须仔细计算其突出宽度，以确保它能够有效抵抗弯曲和屈曲力。如果加劲肋的突出宽度过小，加劲肋可能无法提供足够的支撑，从而导致潜在的结构故障。相反，如果加劲肋的突出宽度过大，则可能导致不必要的材料使用和成本增加，而没有显著的好处。因此，找到最佳的加劲肋的突出宽度是一项平衡的工作，需要对各种因素进行全面分析和考虑，包括材料特性、载荷条件和结构的预期用途。此外，加劲肋的突出宽度还会影响结构的整体美观。在建筑应用中，视觉吸引力很重要，工程师必须考虑加劲肋如何与设计相结合。合理比例的加劲肋的突出宽度可以增强建筑物的外观，同时仍然满足其结构要求。这是工程与建筑交叉的一个典范，突显了这两个学科之间合作的必要性。除了美学考虑外，加劲肋的突出宽度还会影响制造和组装过程。较宽的加劲肋可能会使焊接或螺栓连接过程变得复杂，安装所需的时间和资源增加。因此，工程师还必须考虑设计的实际影响，确保加劲肋的突出宽度与施工能力和安全标准相一致。总之，加劲肋的突出宽度的概念在结构工程中是基础性的。它影响设计的强度、效率、美学和实用性。工程师必须深刻理解这个术语及其影响，以创建安全、功能齐全且具有视觉吸引力的结构。通过在设计阶段仔细考虑加劲肋的突出宽度，工程师可以为开发符合社会需求的韧性和可持续基础设施做出贡献。随着技术的进步，新材料和方法将不断发展，为我们提供机会来完善对加劲肋的突出宽度的理解，并改善未来项目的设计。